Abstract:
A tunable matching network is disclosed. In a particular example, the matching network includes at least one first inductor in a signal path of the matching network. The matching network includes at least one second inductor outside of the signal path. The matching network includes one or more switches coupled to the at least one second inductor. The one or more switches are configured to selectively enable mutual coupling of the at least one first inductor and the at least one second inductor.
Abstract:
An integrated circuit device in a wafer level package (WLP) includes ball grid array (BGA) balls fabricated with cavities filled with adhesives for improved solder joint reliability.
Abstract:
A device includes an acoustic resonator embedded within an encapsulating structure that at least partially encapsulates the acoustic resonator. The device includes an inductor electrically connected to the acoustic resonator. At least a portion of the inductor is embedded in the encapsulating structure.
Abstract:
An apparatus includes a substrate and a three-dimensional (3D) wirewound inductor integrated within the substrate. The apparatus further includes a capacitor coupled to the 3D wirewound inductor.
Abstract:
An inductor is provided on a substrate that includes a capacitor. The inductor comprises a series of wire loops. An end of the wire loop is wire bonded to the capacitor.
Abstract:
An integrated circuit device that includes a package substrate and a die coupled to the package substrate. The package substrate includes at least one dielectric layer, a first stack of first interconnects in the at least one dielectric layer, and a second interconnect formed on at least one side portion of the at least one dielectric layer. The first stack of first interconnects is configured to provide a first electrical path for a non-ground reference signal, where the first stack of first interconnects is located along at least one side of the package substrate. The second interconnect is configured to provide a second electrical path for a ground reference signal.
Abstract:
A particular device includes a replica circuit disposed above a dielectric substrate. The replica circuit includes a thin film transistor (TFT) configured to function as a variable capacitor or a variable resistor. The device further includes a transformer disposed above the dielectric substrate and coupled to the replica circuit. The transformer is configured facilitate an impedance match between the replica circuit and an antenna.
Abstract:
Systems and methods relate to a semiconductor package comprising a first substrate or a 2D passive-on-glass (POG) structure with a passive component and a first set of one or more package pads formed on a face of a glass substrate. The semiconductor package also includes a second or laminate substrate with a second set of one or more package pads formed on a face of the second or laminate substrate. Solder balls are dropped, configured to contact the first set of one or more package pads with the second set of one or more package pads, wherein the first substrate or the 2D POG structure is placed face-up on the face of the second or laminate substrate. A printed circuit board (PCB) can be coupled to a bottom side of the second or laminate substrate.
Abstract:
Tunable diplexers in three-dimensional (3D) integrated circuits (IC) (3DIC) are disclosed. In one embodiment, the tunable diplexer may be formed by providing one of either a varactor or a variable inductor in the diplexer. The variable nature of the varactor or the variable inductor allows a notch in the diplexer to be tuned so as to select a band stop to eliminate harmonics at a desired frequency as well as control the cutoff frequency of the pass band. By stacking the elements of the diplexer into three dimensions, space is conserved and a variety of varactors and inductors are able to be used.
Abstract:
Tunable diplexers in three-dimensional (3D) integrated circuits (IC) (3DIC) are disclosed. In one embodiment, the tunable diplexer may be formed by providing one of either a varactor or a variable inductor in the diplexer. The variable nature of the varactor or the variable inductor allows a notch in the diplexer to be tuned so as to select a band stop to eliminate harmonics at a desired frequency as well as control the cutoff frequency of the pass band. By stacking the elements of the diplexer into three dimensions, space is conserved and a variety of varactors and inductors are able to be used.